If a marking laser is used in joining preparation, it can also apply a Data Matrix Code or serial number to the component simultaneously. This takes care of both cleaning and traceability in a single step. At a glance — the advantages of using a marking laser as a complementary tool in joining processes: The laser marks (ablates, melts, vaporizes, or removes) materials using a fine spot diameter which ranges from 0.002 in-0.01 in. It marks with short pulses (30 nano-seconds), providing precise mark control and negligible heat input. Subsequently, mark penetration into the material of less than 0.001 in unless otherwise required.
Catalog and PDF version of UV laser marking machine by Maven laser
Laser Handbook A comprehensive guide to industrial laser applications The many possible applications of the fiber laser The following overview indicates which materials can be processed using a fiber laser. Metals Processes The Short Answer: The fiber laser source generates a laser beam by pumping intense diode light into the end of fiber optic cables that have been doped with ytterbium The energy from the diode light is absorbed by the ytterbium in the fiber optic cables The ytterbium then releases the energy in the form of photons that travel down the optic cab. Laser marking is a way to permanently mark a physical item for branding, tracking, coding, personalizing, either for security or quality control reasons. During the process, an intense, collimated laser light beam is focused on the surface of a target. By scanning this concentrated spot with moving . Eine zunehmend populäre Technologie zur Herstellung einer dauerhaften, direkten UDIProduktkennzeichnung ist das Laser markierungsverfahren, das auch als Laserglühen bezeichnet wird [5, 6]..
Laser marking solutions Hylax Technology Laser Solution Provider
Laser marking technology provides a method for permanently applying 2D matrix codes to most commonly used board substrates and conformal coatings. The high-resolution and high-accuracy of beam-steered laser marking systems provides the means to create well-defined codes for high-reliability reading regardless of code size. 1. Lasers What is a Laser? Laser is an acronym for "Light Ampli cation by Stimulated Emission of Radiation." Laser Characteristics Lasers differ from other light sources (such as the sun, incandescent or Ordinary light Laser beam Wave length Wave length 1. High Monochromaticity The LP-RV can generate a short pulse laser beam with a high repetition rate even if the scanning is performed at a higher speed. As a result, the laser marking is possible without spaces between dots irradiated by the laser, as shown in the left figure. This also shortens the laser marking or processing cycle time and improves the quality. 4. Lasers in laser marking 4.1 Laser resonator and modes 4.2 CO2 lasers 4.3 Nd:YAG lasers 4.4 Excimer lasers 4.5 Laser marking system evaluation 5. Major components & calculation in laser marking 5.1 Q-switch element 5.2 Beam expander 5.3 F-θ lens 5.4 Beam homogeniser 6. Laser marking mechanism and quality characteristics
Laser Marking Annealing Medical Device & Implants
ML-Z Series 3-Axis CO2 Laser Marker Catalogue. Download. +32 (0) 15 281 222. View Catalogues. Contact /. Price Inquiry. Download material with information on laser markers, laser marking, and laser processing. Laser Marking Basics is designed to learn about laser marking applications and includes information on laser principles, types, and marking. Laser marking is a technique used frequently in the packaging and materials handling industries to form an indelible identification. The technique adopts a process of ink removal by overwriting an already printed surface using a focused laser beam.
Color laser marking has been known for a long time, so, many researches have been conducted about using different kinds of laser sources, effects of environmental conditions on the results and analysis of physical and chemical properties of the surfaces before and after laser treatment. for "cold" marking delicate materials, including electronics, plastics, glass and precious metals. U-Series Lasers The C-Series CO 2 lasers are ideally suited for high-speed, mark-on-the-fly manufacturing applications. This versatile laser is suitable for high resolution marking on plastics, labels and many organic materials. C-Series Lasers
What is Laser Marking and How Does it Work? TechRound
Download What are Visible Rays? Some electromagnetic waves fall within the range of wavelengths that can be seen by humans. These are called visible rays. On the short wavelength side, visible rays measure from 360 to 400 nm. On the long wavelength side, they measure from 760 to 830 nm. Laser marking is a fast and flexible process that can mark alphanumerics, graphics, logos, barcodes and bitmaps. Compared with other marking technologies such as inkjet printing and mechanical marking, laser marking has a number of advantages. It offers very high processing speeds, low operational costs and consistent high quality and dura-
